Browsing by Author "Wainaina, James M."

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    Real time portable genome sequencing for global food security
    (F1000 Research, 2018) Boykin, Laura; Ghalab, Ammar; Rossitto De Marchi, Bruno; Savill, Anders; Wainaina, James M.; Kinene, Tonny; Lamb, Stephen; Rodrigues, Myriam; Kehoe, Monica; Ndunguru, Joseph; Tairo, Fred; Sseruwagi, Peter; Kayuki, Charles; Mark, Deogratius; Erasto, Joel; Bachwenkizi, Hilda; Alicai, Titus; Okao-Okuja, Geoffrey; Abridrabo, Phillip; Ogwok, Emmanuel; Osingada, John Francis; Akono, Jimmy; Ateka, Elijah; Muga, Brenda; Kiarie, Samuel
    Crop losses due to viral diseases and pests are major constraints on food security and income for millions of households in sub-Saharan Africa (SSA). Such losses can be reduced if plant diseases and pests are correctly diagnosed and identified early. Currently, accurate diagnosis for definitive identification of plant viruses and their vectors in SSA mostly relies on standard PCR and next generation sequencing technologies (NGS). However, it can take up to 6 months before results generated using these approaches are available. The long time taken to detect or identify viruses impedes quick, within-season decision-making necessary for early action, crop protection advice and disease control measures by farmers. This ultimately compounds the magnitude of crop losses and food shortages suffered by farmers. The MinION portable pocket DNA sequencer was used, to our knowledge globally for the first time, to sequence whole plant virus genomes. We used this technology to identify the begomoviruses causing the devastating cassava mosaic virus, which is ravaging smallholder farmers’ crops in sub-Saharan Africa.
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    Review and guide to a future naming system of African Bemisia tabaci species
    (Systematic Entomology, 2018) Boykin, Laura M .; Kinene, Tonny; Wainaina, James M.; Derssavill, A. N.; Seal, Susan; Mugerwa, Habibu; Macfadyen, Sarina; Tek Tay, Wee; De Barro, Paul; Kubatko, Laura; Alicai, Titus; Omongo, Christopher A .; Tairo, Fred; Ndunguru, Joseph; Sseruwagi, Peter
    Once a pest has been correctly identified, its genus and species name can provide a link to valuable indications of its ecology, biology and life history that are critical for developing control strategies. Importantly, this link should exist even when the pest was known under other names (synonyms), or was not considered a pest at all (National Research Council, 1968). Many examples have shown that incorrect identification or classification of a pest has led to fruitless searches for biocontrol agents in the native range, incorrect assignments as disease vectors, and costly, yet misdirected, suppression measures. As new approaches for delimiting species based on molecular information become more widely used, the process of correctly identifying a species has become even more complex. Fortunately, we have good systematic frameworks and nomenclatural systems that are able to cope with these challenges. Here we review challenges associated with classification and identificationwithin the Bemisia tabaci (Gennadius) species complex.